Valve cylinder, impact device and method

The invention claimed is: 1. A valve cylinder for a hydraulic impact device of a rock breaking apparatus, the valve cylinder comprising: an elongated piece having a central axis, a front end and a rear end; a central opening extending from the front end to the rear end, and through which central opening a percussion piston mountable; at least two pressure spaces limited by radial surfaces of the central opening and being located at an axial distance from each other; and a plurality of axial pressure fluid channels connecting the at least two pressure spaces, wherein one of the at least two pressure spaces is a control pressure space located at the rear end of the valve cylinder and is configured to receive a sleeve-like control valve, wherein the control pressure space is provided with an inner radial groove including a bottom surface defining a radial extension of the inner radial groove in relation to the central opening adjacent the inner radial groove, and wherein the axial pressure fluid channels pass the inner radial groove without fluid connection with the inner radial groove, the inner radial groove having minimum radial dimensions at portions of the axial pressure fluid channels and maximum radial dimension at intermediate sections located between the axial pressure fluid channels, whereby a size of the inner radial groove is increased when compared to a simple groove with a circular bottom surface corresponding to the minimum radial dimensions at the portions of the axial pressure fluid channels. 2. The valve cylinder as claimed in claim 1 , wherein the bottom surface of the radial groove includes several curved surfaces. 3. The valve cylinder as claimed in claim 1 , wherein the plurality of axial pressure fluid channels comprises three channels. 4. The valve cylinder as claimed in claim 1 , wherein the inner radial groove is made by a milling technique. 5. The valve cylinder as claimed in claim 1 , wherein the inner radial groove is located at a front end portion of the control pressure space. 6. The valve cylinder as claimed in claim 1 , wherein the bottom surface of the inner radial groove is provided with at least one transverse fluid channel providing a fluid connection between the inner radial groove and an outer surface of the valve cylinder. 7. The valve cylinder as claimed claim 1 , wherein the axial pressure fluid channels are spaced around the central opening, whereby a cross-section of the valve cylinder includes fluid channel sections and the intermediate sections located between the fluid channel sections, the bottom surface of the inner radial groove being provided with several transverse fluid channels at each intermediate section, and wherein a thickness of a wall of the valve cylinder at the groove is smaller at the intermediate sections compared to the fluid channel sections. 8. An impact device of a rock breaking apparatus, the impact device comprising: a body provided with a central space; a percussion cartridge arranged axially inside a rear portion of the central space and including a valve cylinder according to claim 1 ; a percussion piston passing through the percussion cartridge and being movable in an impact direction towards a front end of the impact device and in a reverse direction towards a rear end of the impact device; a working pressure space provided with hydraulic pressure fluid for moving the percussion piston in the reverse direction; a control pressure space at a rear end of the valve cylinder and being provided with a sleeve-like control valve for controlling hydraulic pressure affecting at the control pressure space and to thereby controlling a reciprocating movement of the percussion piston, wherein the valve cylinder is provided with a pilot pressure space for providing pressure pulses in response to movement of the percussion piston in the impact direction and, wherein the valve cylinder is provided with a plurality of axial fluid channels arranged for connecting the pilot pressure space and the control pressure space. 9. A method of preventing cavitation in a hydraulic impact device of a rock breaking apparatus, the method comprising: increasing a volume of a hydraulic space between an inner surface of a control pressure space of a valve cylinder of the impact device and an outer surface of a sleeve-like control valve mounted reciprocatively inside the control pressure space, the valve cylinder having a plurality of axial fluid channels; providing the inner surface of the control pressure space with a groove at a cross-section where there are a plurality of transverse fluid channels arranged for feeding hydraulic pressure fluid to and from the control pressure space; and increasing the volume of the hydraulic space by shaping a bottom of the groove to expand towards an outer surface of the impact device at the transverse fluid channels, wherein the groove has minimum radial dimensions at portions of the axial fluid channels and maximum radial dimensions at intermediate sections between the axial fluid channels, wherein a shape of a bottom line of the groove deviates from a circle, and wherein a size of the groove is increased when compared to a simple groove with a circular bottom surface corresponding to the minimum radial dimensions at the portions of the axial fluid channels.